-
Take a look at the water in this glass.
-
Refreshing, hydrating, and invaluable
to your survival.
-
Before you take a sip, though,
-
how do you know that the water inside
is free from disease-causing organisms
-
and pollutants?
-
One out of ten people in the world
can't actually be sure
-
that their water is clean
and safe to drink.
-
Why is that?
-
Inadequate sanitation,
-
poor protection of drinking water sources,
-
and improper hygiene
-
often lead to sewage
and feces-contaminated water
-
That's the ideal breeding ground
for dangerous bacteria,
-
viruses,
-
and parasites.
-
And the effects of these pathogens
are staggering.
-
Diaherial disease from unsafe water is one
of the leading causes of death
-
around the world for children under five.
-
And according to U.N. report from 2010,
-
microbial water-borne illnesses killed
more people per year than war.
-
Proper treatment processes, though,
can address these threats.
-
They usually have three parts:
-
sedimentation,
-
filtration,
-
and disinfection.
-
Once water has been collected
in a treatment facility,
-
it's ready for cleaning.
-
The first step, sedimentation,
just takes time.
-
The water sits undisturbed, allowing
heavier particles to sink to the bottom.
-
Often, though, particles
are just too small
-
to be removed by sedimentation alone
-
and need to be filtered.
-
Gravity pulls the water downward through
layers of sand
-
that catch leftover particles
in their pores,
-
prepping the water
for its final treatment,
-
a dose of disinfectant.
-
Chemicals, primarily forms
of chlorine and ozone,
-
are mixed in to kill off any pathogens
-
and to disinfect pipes
and storage systems.
-
Chlorine is highly effective in destroying
water's living organisms,
-
but its use remains government-regulated
-
because it has potentially harmful
chemical byproducts.
-
And if an imbalance of chlorine occurs
during the disinfection process,
-
it can trigger other chemical reactions.
-
For example,
levels of chlorine byproducts,
-
like trihalomethanes, could skyrocket,
leading to pipe corrosion,
-
and the release of iron, copper,
and lead into drinking water.
-
Water contamination from these
and other sources
-
including leaching,
-
chemical spills,
-
and runoffs,
-
has been linked
to long-term health effects,
-
like cancer,
-
cardiovascular and neurological diseases,
-
and miscarriage.
-
Unfortunately, analyzing the exact risks
-
of chemically contaminated
water is difficult.
-
So while it's clear that disinfectants
make us safe
-
by removing disease-causing pathogens,
-
experts have yet
to determine the full scope
-
of how the chemical cocktail
in our drinking water
-
really impacts human health.
-
So how can you tell whether the water
you have access to,
-
whether from a tap or otherwise,
-
is drinkable?
-
Firstly, too much turbidity,
-
trace organic compounds,
-
or high-density heavy metals like arsenic,
chromium, or lead,
-
mean that the water
is unsuitable for consumption.
-
A lot of contaminants,
like lead or arsenic,
-
won't be obvious without tests,
-
but some clues, like cloudiness,
-
brown or yellow coloration,
-
a foul odor,
-
or and excessive chlorine smell
-
can indicate the need
to investigate further.
-
Water testing kits can go a step further
-
and confirm the presence of many different
contaminants and chemicals.
-
With many types of contamination,
-
there are ways of treating water where
it's used instead of close to its source.
-
Point-of-use treatment has actually
been around for thousands of years.
-
Ancient Egyptians boiled away many
organic contaminants with the sun's heat.
-
And in Ancient Greece, Hippocrates
designed a bag
-
that trapped bad tasting
sediments from water.
-
Today, point-of-use processes usually
involve ionization
-
to lower mineral content.
-
They also use absorption filtration,
-
where a porous material
called activated carbon
-
strains the water to remove contaminants
and chemical byproducts.
-
While it's not always an effective
long-term solution,
-
point-of-use treatment is portable,
easy to install, and adaptable.
-
And in regions where large-scale
systems are unavailable,
-
or where water has been contaminated
further along its journey,
-
these systems can mean the difference
between life and death.
-
Clean water remains a precious
and often scarce commodity.
-
There are nearly 800 million of us who
still don't have regular access to it.
-
The good news is that continued
developments in water treatment,
-
both on a large and small scale,
-
can alleviate a lot of unsafe conditions.
-
Implementing proper systems where
they're needed
-
and paying careful attention
to the ones already in place
-
will fulfill one of the most basic
of our human needs.
closed TED
Ростислав Голод
There is a mistake in 0:23 here. One out of ten CAN actually be sure the water is safe to drink, not CAN'T
Retired user
@ 0:21
from disease-causing organisms
--------------------
and pollutants?
Why split these two phrases in the different caption with the similar meaning chemically.
For me, it's broken for translation.